CN204905470U - Cable diverging device - Google Patents

Abstract

The utility model discloses a cable diverging device presss from both sides with the main line that is used for the centre gripping main line including the tee connector that is used for the centre gripping to connect separated time for the ammeter, the tee connector includes the tee connector body, the main line presss from both sides and presss from both sides the body including the main line, these two bodies are integrated into one piece's overall structure, be equipped with the first recess of four side confineds on the tee connector body, the articulated latch segment that includes two mutual articulated piecemeals at least in it, lock screw or cam mechanism that the latch segment passes through to set up on the tee connector body lock, the main line presss from both sides to be equipped with on the body and matedly moves chuck and quiet chuck and be used for locking to move the locking mechanism of chuck and quiet chuck, the utility model discloses simple structure, convenient, the good reliability of fastening the wire, work a telephone switchboard, can dismantle, lighten intensity of labour, improve work efficiency, in addition the commonality is strong, can the auto -lock, the unblock of being convenient for.

Description

Cable part flow arrangement

Technical field

The utility model relates to wire interconnection technique, is specifically related to cable part flow arrangement.

Background technology

Electrical Safety on society, ensure that power network safety operation is very important, connecting position of wires reason is bad, and bring a lot of puzzlement, such as ammeter wiring is registered one's residence, when needing separated time, what current most places adopted is directly be wrapped on basic routing line by the separated time connecting ammeter, and this kind of mode often causes wiring insecure, breaks, bring certain loss to user, bring a large amount of work to maintenance, repair personnel.Existing wire clamp one side unbalance stress, one side are yielding, can slide to the left and right sides when nut screwing clamping, repeatedly to adjust and could aim at, increase operation easier, and existing wire clamp can only grip the main line of specification, the main line of different size can not be common to, and existing wire to have a lot be non-graticule, not all main line is all a size, therefore needs to select different existing wire clamps, troublesome poeration according to the main line of different size, use inconvenience, and firm not to the clamping of separated time, after long-time use, can relax.

Utility model content

The purpose of this utility model be to provide a kind of structure simple, can wire is fastening, wire connect reliable, wiring is convenient, detachable, reduce labor intensity, increase work efficiency, even highly versatile, can self-locking, be convenient to the cable part flow arrangement that unlocks.

The utility model is achieved through the following technical solutions:

Cable part flow arrangement, comprise the tee connector for clamping separated time and the main line folder for clamping main line, tee connector comprises tee connector body, main line folder comprises dry wire clip body, the structure that tee connector body and dry wire clip body are formed in one, it is characterized in that: described tee connector body establishes the first groove, and the first groove runs through tee connector body in the longitudinal direction, and upper and lower, left and right four side seal closes; First groove is embedded in all hinged with the tee connector body latch segment for locking separated time in its two ends, and the side in the first groove outside latch segment is provided with for the space of latch segment towards the opposite direction movement in clamp direction, latch segment comprises at least two piecemeals be hinged, and hinge hinged between two piecemeals is parallel with hinge hinged between latch segment and tee connector body, the length of latch segment makes locking separated time during slightly larger than the length of described first groove, latch segment is subject to the auto lock power of tee connector body and self-locking; Tee connector body be provided with one with the lock screw of the outside apical grafting of latch segment or cam mechanism, cam mechanism comprises and is arranged at cam between latch segment and tee connector body and is connected cam and stretches out the action bars of tee connector body; Described dry wire clip body is provided with paired dynamic chuck and quiet chuck and the retaining mechanism for locking dynamic chuck and quiet chuck; During use, main line is arranged between dynamic chuck and quiet chuck, and is locked by the effect of retaining mechanism, and separated time is arranged on inside latch segment and between tee connector body, holds out against latch segment by lock screw, locking separated time.

The further improvement project of the utility model comprises:

Described cable part flow arrangement comprises at least one solidus hole, solidus hole is that semicircular solidus groove involutes by the cross section be arranged on the face close to each other of described latch segment and described tee connector body, and solidus groove on described latch segment and described tee connector body is equipped with waveform concaveconvex structure, and the waveform concaveconvex structure shape of both correspondences adapts, and can when locking separated time, separated time to be bent waviness, and prevent separated time landing, the axis in solidus hole and the length direction of latch segment or Width identical or different.

The downside of described first groove is provided with at least one point string holes running through tee connector body, and each shunting string holes is corresponding with a described solidus hole.

The side that described quiet chuck can contact with main line, and on solidus groove can with the side of line contact, be equipped with monitoring position; Be provided with temperature sensor in described monitoring position, and temperature sensor with can be connected by the temperature monitoring system of automatic alarm when monitoring cable part flow arrangement temperature and being too high.

The second groove is provided with in described dry wire clip body, second groove has been embedded in described dynamic chuck moving up and down, dry wire clip body is fixedly connected with the described quiet chuck relative with the pinching end of dynamic chuck, a side of dynamic chuck or two sides are provided with the non-return sawtooth of downward check, the outside of the non-return sawtooth of dynamic chuck is provided with the anti-loose non-return sawtooth block coordinated with it, one end near quiet chuck of anti-loose non-return sawtooth block is its upper end, relative one end is its lower end, the side that anti-loose non-return sawtooth block coordinates with dynamic chuck is provided with the non-return sawtooth of upwards check, the side near dynamic chuck of anti-loose non-return sawtooth block is inside it, relative side is outside it, stage clip is provided with between the outside of anti-loose non-return sawtooth block and dry wire clip body, dynamic chuck and anti-loose non-return sawtooth block are compressed by stage clip, anti-loose non-return sawtooth block is with a fixed lobe, dry wire clip body be provided with a fixed groove coordinated with it with this fixed lobe corresponding position, fixed lobe is connected in fixed groove, fixed lobe forms the rotating shaft that anti-loose non-return sawtooth block rotates relative to dry wire clip body, fixed groove is cylindrical recesses, the shape of fixed lobe adapts with it, the radius of fixed lobe is greater than the size of the opening of the side near anti-loose non-return sawtooth block of fixed groove, and limit fixed lobe to the direction of dynamic chuck and move, the outside of anti-loose non-return sawtooth block is connected with a trip lever, and trip lever drives the motion of anti-loose non-return sawtooth block to unclamp the meshing of anti-loose non-return sawtooth block and dynamic chuck.

Described fixed lobe is arranged at the described anti-loose non-return lower end of sawtooth block or the end of upper end, the non-return sawtooth of corresponding anti-loose non-return sawtooth block is arranged on the upper end of anti-loose non-return sawtooth block or the side of lower end, described trip lever is pull bar, described main line folder body side is provided with the unblock through hole passed for pull bar, and pull bar arranges end with the non-return sawtooth of anti-loose non-return sawtooth block be fixedly connected with through unblock through hole, described stage clip successively.

Anti-loose non-return sawtooth block is divided into two sections by the position, described fixed lobe place of described anti-loose non-return sawtooth block, be respectively epimere and hypomere, the non-return sawtooth of anti-loose non-return sawtooth block is arranged on the upper end of epimere of anti-loose non-return sawtooth block or the side of the lower end of hypomere; Described trip lever is push rod, described main line folder body side is provided with the unblock through hole passed for push rod, push rod successively through unlocking through hole, described stage clip is relative with the non-return sawtooth section of setting of anti-loose non-return sawtooth block one section be fixedly connected with or apical grafting, and be provided with between be connected with push rod one section of anti-loose non-return sawtooth block and described dynamic chuck for its gap to dynamic chuck direction movement

Or trip lever is pull bar, main line folder body side is provided with the unblock through hole passed for pull bar, pull bar is connected with the non-return sawtooth section of setting of anti-loose non-return sawtooth block through unblock through hole, stage clip successively, and is provided with between another section relative with a section that pull bar is fixedly connected with of anti-loose non-return sawtooth block and dynamic chuck for its gap to dynamic chuck direction movement.

Described main line folder also comprises the adjusting bolt regulating described dynamic chuck to move up and down, and described dry wire clip body is provided with adjustment screw, and adjusting bolt is fixed with dry wire clip body through regulating screw.

Described cable part flow arrangement also comprises outer protective cover, and outer protective cover is socketed in described dry wire clip body and/or described tee connector body surrounding is also fixedly connected with it.

The cooperation of the arcs of recesses structure that the convex structure of described latch segment and described tee connector body between the two hinged by a structure in both is arranged and another structure are arranged realizes; Hinged between two described piecemeals, is realized by the cooperation of the arcs of recesses structure that convex structure that a piecemeal is arranged and another piecemeal are arranged.

The utility model tool has the following advantages: structure is simple, can be fastening by wire, and ensure the reliability that wire connects, wiring is convenient, detachably, reduces labor intensity, increases work efficiency, even highly versatile, can self-locking, be convenient to unlock.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model cable part flow arrangement;

Wherein: 1-tee connector, 11-tee connector body, 111-divides string holes, 12-first groove, 13-latch segment, 131-piecemeal, 14-lock screw, 2-main line presss from both sides, the dry wire clip body of 21-, 211-unlocks through hole, 212-fixed groove, and 213-regulates screw, 214-second groove, 22-moves chuck, the quiet chuck of 23-, the anti-loose non-return sawtooth block of 24-, 241-fixed lobe, 25-stage clip, 26-trip lever, 27-adjusting bolt, 3-outer protective cover.

Embodiment

Below in conjunction with accompanying drawing, the utility model cable part flow arrangement is further described:

Embodiment 1:

As shown in Figure 1, cable part flow arrangement comprises the tee connector 1 for clamping separated time and the main line folder 2 for clamping main line, tee connector 1 comprises tee connector body 11, and main line folder 2 comprises dry wire clip body 21, the structure that tee connector body 11 and dry wire clip body 21 are formed in one; Tee connector body 11 is established the first groove 12, first groove 12 run through tee connector body 11 in the longitudinal direction, and upper and lower, left and right four side seal close; First groove 12 is embedded in all hinged with tee connector body 11 latch segment 13 for locking separated time in its two ends, latch segment 13 comprises at least two piecemeals be hinged 131, and hinge hinged between two piecemeals 131 is parallel with hinge hinged between latch segment and tee connector body, the length of latch segment 13 makes locking separated time during slightly larger than the length of the first groove 12, latch segment 13 is subject to the auto lock power of tee connector body 11 and self-locking; Tee connector body 11 be provided with one with the lock screw 14 of the outside apical grafting of latch segment 13 or cam mechanism, cam mechanism comprises and is arranged at cam between latch segment 13 and tee connector body 11 and is connected cam and stretches out the action bars of tee connector body 11; Dry wire clip body 21 is relatively set with dynamic chuck 22 and quiet chuck 23 and the retaining mechanism for locking dynamic chuck 22 and quiet chuck 23; During use, main line is arranged between dynamic chuck 22 and quiet chuck 23, and is locked by the effect of retaining mechanism, and separated time is arranged on inside latch segment 13 and between tee connector body 11, then regulates lock screw to hold out against latch segment 13, locking separated time.The length of latch segment is greater than the length of the first groove, first groove upper, lower both sides are subject to great tension force, first groove of the cable part flow arrangement of this structure is set to the structure that four side seals close, stress on shunting wire clamp body is easily disperseed, overall stressed, structure is simple, without the need to additionally arranging stress reinforcement, the fastness of structure can be increased, can be fastening by wire, increase the reliability of solidus, the piecemeal of latch segment is overall structure, do not have to bore a hole in the hinged place of two piecemeals again, but make the apical grafting of lock screw or cam mechanism and latch segment and lock latch segment, this kind of structure ensure that the intensity of piecemeal, can not when by External Force Acting, destroy in the hinged place of two piecemeals, ensure that the stability of structure, wire is tightened up so that permanently effective, wiring is convenient, only need main line and shunt line be set on corresponding wire clamp, fastening, this cable part flow arrangement is also detachable, main line is by moving chuck and quiet chuck is fixed, only need move dynamic chuck cable part flow arrangement can be pulled down from main line, as for the dismounting of shunt line, only lock screw need be operated or latch segment unlocks by cam mechanism, move latch segment again, easy and simple to handle, both reduced labor intensity, increase work efficiency again, due to dynamic, the spacing of quiet chuck is adjustable, be applicable to the main line of various wire diameter, highly versatile, shunting wire clamp is because the length of latch segment is slightly larger than the length of the first groove, and can self-locking, unlock easy, only lock screw need be operated or latch segment unlocks by cam mechanism, moving latch segment again can.

Preferred cable part flow arrangement comprises at least one solidus hole, solidus hole is that semicircular solidus groove involutes by the cross section be arranged on the face close to each other of latch segment 13 and tee connector body 11, and solidus groove on latch segment 13 and tee connector body 11 is equipped with waveform concaveconvex structure, and the waveform concaveconvex structure shape of both correspondences adapts, and can when locking separated time, separated time to be bent waviness, and prevent separated time landing, the axis in solidus hole and the length direction of latch segment 13 or Width identical or different.The benefit of this kind of structure is, shunt line is bent into waveform on the one hand, realize in one direction anti-skidding, an on the other hand corresponding separated time in solidus hole, during latch segment locking shunt line, fill the span of a man's arms shunt line in solidus hole, what realize on other direction is anti-skidding, can tightly flow point streamline, and avoid its swing on cable part flow arrangement or landing, firm, the persistence ensureing that wire connects and reliability.Also can be provided with at least one point string holes 111 running through tee connector body 11 in the downside of the first groove 12, each shunting string holes 111 is corresponding with a solidus hole, the benefit of this kind of structure is that wire passes through point string holes 111, tentatively spacing, when being locked by latch segment again, the stress that latch segment bears is relatively little, and structure is more firm, is more conducive to tighten up shunt line.Preferably point string holes 111 at least comprises two, and the size of two points of string holes 111 is different, and most of separated time is two kinds of sizes, large line wire diameter is 25-300mm, little line wire diameter is below 25mm, arranges the connection that two points of string holes 111 just can be applicable to most of separated time substantially, highly versatile.

The side that preferred quiet chuck 23 can contact with main line, and on solidus groove can with the side of line contact, be equipped with monitoring position; Monitoring position in be provided with temperature sensor, and temperature sensor with can be connected by the temperature monitoring system of automatic alarm when monitoring cable part flow arrangement temperature and being too high.The connection of wire is not if fastening, then can generate heat, affect conducting transmission efficiency, finally cause even igniting, cause safety problem, therefore set temperature monitoring system is significant, and temperature sensor is arranged on quiet chuck and solidus groove, more accurately, timely temperature monitoring be can carry out to cable part flow arrangement, cable part flow arrangement, the reliability of wiring and the fail safe of use ensured.

The second groove 214 is provided with in preferred dry wire clip body 21, second groove 214 has been embedded in dynamic chuck 22 moving up and down, dry wire clip body 21 is fixedly connected with the quiet chuck 23 relative with the pinching end of dynamic chuck 22, a side of dynamic chuck 22 or two sides are provided with the non-return sawtooth of downward check, the outside of the non-return sawtooth of dynamic chuck 22 is provided with the anti-loose non-return sawtooth block 24 coordinated with it, one end near quiet chuck 23 of anti-loose non-return sawtooth block 24 is its upper end, relative one end is its lower end, the side that anti-loose non-return sawtooth block 24 coordinates with dynamic chuck 22 is provided with the non-return sawtooth of upwards check, the side near dynamic chuck 22 of anti-loose non-return sawtooth block 24 is inside it, relative side is outside it, stage clip 25 is provided with between the outside of anti-loose non-return sawtooth block 24 and dry wire clip body 21, dynamic chuck 22 is compressed by stage clip 25 with anti-loose non-return sawtooth block 24, anti-loose non-return sawtooth block 24 is with a fixed lobe 241, dry wire clip body 21 be provided with a fixed groove coordinated with it 212 with this fixed lobe 241 corresponding position, fixed lobe 241 is connected in fixed groove 212, fixed lobe 241 forms the rotating shaft that anti-loose non-return sawtooth block 24 rotates relative to dry wire clip body 21, fixed groove 212 is cylindrical recesses, the shape of fixed lobe 241 adapts with it, the radius of fixed lobe 241 is greater than the size of the opening of the side near anti-loose non-return sawtooth block 24 of fixed groove 212, and limit fixed lobe 241 to the direction of dynamic chuck 22 and move, the outside of anti-loose non-return sawtooth block 24 is connected with a trip lever 26, trip lever 26 drives anti-loose non-return sawtooth block 24 to move to unclamp the meshing of anti-loose non-return sawtooth block 24 and dynamic chuck 22.

Preferred fixed groove 212 is " C " shape structure, the structure of fixed lobe 241 adapts with it, the surface of fixed groove 212 and the surface of fixed lobe 241 are shiny surface, length direction and the main line of fixed groove 212 press from both sides 2 clamp direction consistent, dry wire clip body 21 is run through in the one or both ends of fixed groove 212 length direction, this respective end running through the fixed groove 212 of dry wire clip body 21 is openend, fixed lobe 241 is set in fixed groove 212 hinged with it from the openend of fixed groove 212, fixed lobe 241 is restricted to the movement in the direction of dynamic chuck 22, trip lever 26 can be bolt, and anti-loose non-return sawtooth block 24 is provided with the unblock screw matched with bolt accordingly, is threaded between trip lever 26 with anti-loose non-return sawtooth block 24.

Preferred stage clip 25 is tower stage clip, comprise multilayer stage clip circle, the external dimensions of last layer stage clip circle is less than the inside dimension of next lamination spring coil, during use, when the decrement of stage clip 25 reaches maximum, upper strata stage clip circle is pressed in laminated spring coil successively, finally makes the thickness of stage clip equal with the thickness of one deck stage clip circle; Or stage clip 25 is the spring of corrugated flat spring or column.

Preferred fixed lobe 241 is arranged at the anti-loose non-return lower end of sawtooth block 24 or the end of upper end, the non-return sawtooth of corresponding anti-loose non-return sawtooth block 24 is arranged on the upper end of anti-loose non-return sawtooth block 24 or the side of lower end, trip lever 26 is pull bar, dry wire clip body 21 side is provided with the unblock through hole 211 passed for pull bar, and pull bar arranges end with the non-return sawtooth of anti-loose non-return sawtooth block 24 be fixedly connected with through unblock through hole 211, stage clip 25 successively.Or anti-loose non-return sawtooth block 24 is divided into two sections by the position, fixed lobe 241 place of preferred anti-loose non-return sawtooth block 24, be respectively epimere and hypomere, the non-return sawtooth of anti-loose non-return sawtooth block 24 is arranged on the upper end of epimere of anti-loose non-return sawtooth block 24 or the side of the lower end of hypomere, trip lever 26 is push rod, dry wire clip body 21 side is provided with the unblock through hole 211 passed for push rod, push rod is successively through unlocking through hole 211, one section that stage clip 25 is relative with the non-return sawtooth section of setting of anti-loose non-return sawtooth block 24 is fixedly connected with or apical grafting, and be provided with for its gap to dynamic chuck 22 direction movement between be connected with push rod one section of anti-loose non-return sawtooth block 24 and dynamic chuck 22, push rod can be fixedly connected with anti-loose non-return sawtooth block 24 with anti-loose non-return sawtooth block 24 apical grafting or push rod, push rod can be bolt, unblock through hole 211 corresponding with push rod on dry wire clip body 21 is screw, push rod is threaded with unblock through hole 211

Or trip lever 26 is pull bar, dry wire clip body 21 side is provided with the unblock through hole 211 passed for pull bar, pull bar is connected with the non-return sawtooth section of setting of anti-loose non-return sawtooth block 24 through unblock through hole 211, stage clip 25 successively, and be provided with between another section relative with a section that pull bar is fixedly connected with of anti-loose non-return sawtooth block 24 and dynamic chuck 22 for its gap to dynamic chuck 22 direction movement, pull bar is fixedly connected with anti-loose non-return sawtooth block 24.

The size that can arrange unblock through hole 211 corresponding with trip lever 26 on dry wire clip body 21 is greater than the external dimensions of trip lever 26, trip lever 26 and this unblock through hole 211 loose fit.

Preferred main line folder 2 also comprises the adjusting bolt 27 regulating dynamic chuck 22 to move up and down, and dry wire clip body 21 is provided with and regulates screw 213, and adjusting bolt is fixed with dry wire clip body 21 through regulating screw 213.

Preferred cable part flow arrangement also comprises outer protective cover 3, outer protective cover 3 be socketed in dry wire clip body 21 with or tee connector body 11 surrounding being fixedly connected with it.

The cooperation of the arcs of recesses structure that the convex structure of preferred latch segment 13 and tee connector body 11 between the two hinged by a structure in both is arranged and another structure are arranged realizes; Hinged between two piecemeals 131, is realized by the cooperation of the arcs of recesses structure that convex structure that a piecemeal 131 is arranged and another piecemeal 131 are arranged.The radian of arcs of recesses structure is greater than 180 ° makes latch segment 13 or piecemeal 131 can only be set to from the side in corresponding concave-curve structure, can not get loose during rotation, Stability Analysis of Structures, is convenient to install, dismantle.

Claims (8)

1. cable part flow arrangement, comprise the tee connector (1) for clamping separated time and main line folder (2) for clamping main line, tee connector (1) comprises tee connector body (11), main line folder (2) comprises dry wire clip body (21), the structure that tee connector body (11) and dry wire clip body (21) are formed in one, it is characterized in that: described tee connector body (11) establishes the first groove (12), first groove (12) runs through tee connector body (11) in the longitudinal direction, and upper and lower, left and right four side seal closes, first groove (12) is embedded in all hinged with tee connector body (11) latch segment (13) for locking separated time in its two ends, latch segment (13) comprises at least two piecemeals be hinged (131), and hinge hinged between two piecemeals (131) is parallel with hinge hinged between latch segment (13) and tee connector body (11), the length of latch segment (13) makes locking separated time during slightly larger than the length of described first groove (12), latch segment (13) is subject to the auto lock power of tee connector body (11) and self-locking, tee connector body (11) be provided with one with the lock screw (14) of the outside apical grafting of latch segment (13) or cam mechanism, cam mechanism comprises and is arranged at cam between latch segment (13) and tee connector body (11) and is connected cam and stretches out the action bars of tee connector body (11), described dry wire clip body (21) is provided with paired dynamic chuck (22) and quiet chuck (23) and the retaining mechanism for locking dynamic chuck (22) and quiet chuck (23), during use, main line is arranged between dynamic chuck (22) and quiet chuck (23), and locked by the effect of retaining mechanism, separated time is arranged between latch segment (13) inner side and tee connector body (11), and holds out against latch segment (13) by lock screw and lock separated time, described cable part flow arrangement comprises at least one solidus hole, solidus hole is that semicircular solidus groove involutes by the cross section be arranged on the face close to each other of described latch segment (13) and described tee connector body (11), and solidus groove on described latch segment (13) and described tee connector body (11) is equipped with waveform concaveconvex structure, and the waveform concaveconvex structure shape of both correspondences adapts, and can when locking separated time, separated time to be bent waviness, and prevent separated time landing, length direction or the Width of the axis in solidus hole and latch segment (13) are identical or different, the side that described quiet chuck (23) can contact with main line, and on described solidus groove can with the side of line contact, be equipped with monitoring position, be provided with temperature sensor in described monitoring position, and temperature sensor with can be connected by the temperature monitoring system of automatic alarm when monitoring cable part flow arrangement temperature and being too high.

2. cable part flow arrangement according to claim 1, it is characterized in that: the downside of described first groove (12) is provided with at least one point string holes (111) running through tee connector body (11), each shunting string holes (111) is corresponding with a described solidus hole.

3. cable part flow arrangement according to claim 1, it is characterized in that: in described dry wire clip body (21), be provided with the second groove (214), second groove (214) has been embedded in described dynamic chuck (22) moving up and down, dry wire clip body (21) is fixedly connected with the described quiet chuck (23) relative with the pinching end of dynamic chuck (22), a side of dynamic chuck (22) or two sides are provided with the non-return sawtooth of downward check, the outside of the non-return sawtooth of dynamic chuck (22) is provided with the anti-loose non-return sawtooth block (24) coordinated with it, one end near quiet chuck (23) of anti-loose non-return sawtooth block (24) is its upper end, relative one end is its lower end, the side that anti-loose non-return sawtooth block (24) coordinates with dynamic chuck (22) is provided with the non-return sawtooth of upwards check, the side near dynamic chuck (22) of anti-loose non-return sawtooth block (24) is inside it, relative side is outside it, stage clip (25) is provided with between the outside of anti-loose non-return sawtooth block (24) and dry wire clip body (21), dynamic chuck (22) is compressed by stage clip (25) with anti-loose non-return sawtooth block (24), anti-loose non-return sawtooth block (24) is with a fixed lobe (241), dry wire clip body (21) be provided with a fixed groove coordinated with it (212) with this fixed lobe (241) corresponding position, fixed lobe (241) is connected in fixed groove (212), fixed lobe (241) forms the rotating shaft that anti-loose non-return sawtooth block (24) is rotated relative to dry wire clip body (21), fixed groove (212) is cylindrical recesses, the shape of fixed lobe (241) adapts with it, the radius of fixed lobe (241) is greater than the size of the opening of the side near anti-loose non-return sawtooth block (24) of fixed groove (212), and limit fixed lobe (241) to the direction of dynamic chuck (22) and move, the outside of anti-loose non-return sawtooth block (24) is connected with a trip lever (26), and trip lever (26) drives the motion of anti-loose non-return sawtooth block (24) to unclamp the meshing of anti-loose non-return sawtooth block (24) and dynamic chuck (22).

4. cable part flow arrangement according to claim 3, it is characterized in that: described fixed lobe (241) is arranged at the described anti-loose non-return lower end of sawtooth block (24) or the end of upper end, the non-return sawtooth of corresponding anti-loose non-return sawtooth block (24) is arranged on the upper end of anti-loose non-return sawtooth block (24) or the side of lower end, described trip lever (26) is pull bar, described dry wire clip body (21) side is provided with the unblock through hole (211) passed for pull bar, pull bar is successively through unlocking through hole (211), described stage clip (25) arranges end with the non-return sawtooth of anti-loose non-return sawtooth block (24) and is fixedly connected with.

5. cable part flow arrangement according to claim 3, it is characterized in that: anti-loose non-return sawtooth block (24) is divided into two sections by described fixed lobe (241) position, place of described anti-loose non-return sawtooth block (24), be respectively epimere and hypomere, the non-return sawtooth of anti-loose non-return sawtooth block (24) is arranged on the upper end of epimere of anti-loose non-return sawtooth block (24) or the side of the lower end of hypomere; Described trip lever (26) is push rod, described dry wire clip body (21) side is provided with the unblock through hole (211) passed for push rod, push rod successively through unlocking through hole (211), described stage clip (25) is relative with the non-return sawtooth section of setting of anti-loose non-return sawtooth block (24) one section be fixedly connected with or apical grafting, and be provided with between be connected with push rod one section of anti-loose non-return sawtooth block (24) and described dynamic chuck (22) for its gap to dynamic chuck (22) direction movement

Or trip lever (26) is pull bar, dry wire clip body (21) side is provided with the unblock through hole (211) passed for pull bar, pull bar is connected with the non-return sawtooth section of setting of anti-loose non-return sawtooth block (24) through unblock through hole (211), stage clip (25) successively, and is provided with between another section relative with a section that pull bar is fixedly connected with of anti-loose non-return sawtooth block (24) and dynamic chuck (22) for its gap to dynamic chuck (22) direction movement.

6. cable part flow arrangement according to claim 3, it is characterized in that: described main line folder (2) also comprises the adjusting bolt (27) regulating described dynamic chuck (22) to move up and down, described dry wire clip body (21) is provided with and regulates screw (213), and adjusting bolt is fixed with dry wire clip body (21) through regulating screw (213).

7. cable part flow arrangement according to claim 3, it is characterized in that: described cable part flow arrangement also comprises outer protective cover (3), outer protective cover (3) is socketed in described dry wire clip body (21) and/or described tee connector body (11) surrounding is also fixedly connected with it.

8. cable part flow arrangement according to claim 1, is characterized in that: the cooperation of the arcs of recesses structure that the convex structure of described latch segment (13) and described tee connector body (11) between the two hinged by a structure in both is arranged and another structure are arranged realizes; Hinged between two described piecemeals (131), is realized by the cooperation of the upper convex structure that arranges of a piecemeal (131) and the upper arcs of recesses structure arranged of another piecemeal (131).